{-# LANGUAGE ExplicitForAll #-} {-# LANGUAGE LambdaCase #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE TupleSections #-} -- | After the document is parsed, before getting executed, the AST is -- transformed into a similar, simpler AST. Performed transformations include: -- -- * Replacing variables with their values. -- * Inlining fragments. Some fragments can be completely eliminated and -- replaced by the selection set they represent. Invalid (recursive and -- non-existing) fragments are skipped. The most fragments are inlined, so the -- executor doesn't have to perform additional lookups later. -- * Evaluating directives (@\@include@ and @\@skip@). -- -- This module is also responsible for smaller rewrites that touch only parts of -- the original AST. module Language.GraphQL.Execute.Transform ( Document(..) , Field(..) , Fragment(..) , Input(..) , Operation(..) , QueryError(..) , Selection(..) , document , queryError ) where import Control.Monad (foldM, unless) import Control.Monad.Trans.Class (lift) import Control.Monad.Trans.State (State, evalStateT, gets, modify) import Data.Foldable (find) import Data.Functor.Identity (Identity(..)) import Data.HashMap.Strict (HashMap) import qualified Data.HashMap.Strict as HashMap import Data.Int (Int32) import Data.Maybe (fromMaybe) import Data.List.NonEmpty (NonEmpty(..)) import qualified Data.List.NonEmpty as NonEmpty import Data.Sequence (Seq, (<|), (><)) import Data.Text (Text) import qualified Data.Text as Text import qualified Language.GraphQL.AST as Full import Language.GraphQL.AST (Name) import qualified Language.GraphQL.Execute.Coerce as Coerce import qualified Language.GraphQL.Type.Definition as Definition import qualified Language.GraphQL.Type as Type import qualified Language.GraphQL.Type.In as In import Language.GraphQL.Type.Internal import qualified Language.GraphQL.Type.Out as Out import Language.GraphQL.Type.Schema -- | Associates a fragment name with a list of 'Field's. data Replacement m = Replacement { fragments :: HashMap Full.Name (Fragment m) , fragmentDefinitions :: FragmentDefinitions , variableValues :: Type.Subs , types :: HashMap Full.Name (Type m) } type FragmentDefinitions = HashMap Full.Name Full.FragmentDefinition -- | Represents fragments and inline fragments. data Fragment m = Fragment (CompositeType m) (Seq (Selection m)) -- | Single selection element. data Selection m = SelectionFragment (Fragment m) | SelectionField (Field m) -- | GraphQL has 3 operation types: queries, mutations and subscribtions. -- -- Currently only queries and mutations are supported. data Operation m = Query (Maybe Text) (Seq (Selection m)) | Mutation (Maybe Text) (Seq (Selection m)) | Subscription (Maybe Text) (Seq (Selection m)) -- | Single GraphQL field. data Field m = Field (Maybe Full.Name) Full.Name (HashMap Full.Name Input) (Seq (Selection m)) -- | Contains the operation to be executed along with its root type. data Document m = Document (HashMap Full.Name (Type m)) (Out.ObjectType m) (Operation m) data OperationDefinition = OperationDefinition Full.OperationType (Maybe Full.Name) [Full.VariableDefinition] [Full.Directive] Full.SelectionSet -- | Query error types. data QueryError = OperationNotFound Text | OperationNameRequired | CoercionError | TransformationError | EmptyDocument | UnsupportedRootOperation data Input = Int Int32 | Float Double | String Text | Boolean Bool | Null | Enum Name | List [Type.Value] | Object (HashMap Name Input) | Variable Type.Value deriving (Eq, Show) queryError :: QueryError -> Text queryError (OperationNotFound operationName) = Text.unwords ["Operation", operationName, "couldn't be found in the document."] queryError OperationNameRequired = "Missing operation name." queryError CoercionError = "Coercion error." queryError TransformationError = "Schema transformation error." queryError EmptyDocument = "The document doesn't contain any executable operations." queryError UnsupportedRootOperation = "Root operation type couldn't be found in the schema." getOperation :: Maybe Full.Name -> NonEmpty OperationDefinition -> Either QueryError OperationDefinition getOperation Nothing (operation' :| []) = pure operation' getOperation Nothing _ = Left OperationNameRequired getOperation (Just operationName) operations | Just operation' <- find matchingName operations = pure operation' | otherwise = Left $ OperationNotFound operationName where matchingName (OperationDefinition _ name _ _ _) = name == Just operationName lookupInputType :: Full.Type -> HashMap.HashMap Full.Name (Type m) -> Maybe In.Type lookupInputType (Full.TypeNamed name) types = case HashMap.lookup name types of Just (ScalarType scalarType) -> Just $ In.NamedScalarType scalarType Just (EnumType enumType) -> Just $ In.NamedEnumType enumType Just (InputObjectType objectType) -> Just $ In.NamedInputObjectType objectType _ -> Nothing lookupInputType (Full.TypeList list) types = In.ListType <$> lookupInputType list types lookupInputType (Full.TypeNonNull (Full.NonNullTypeNamed nonNull)) types = case HashMap.lookup nonNull types of Just (ScalarType scalarType) -> Just $ In.NonNullScalarType scalarType Just (EnumType enumType) -> Just $ In.NonNullEnumType enumType Just (InputObjectType objectType) -> Just $ In.NonNullInputObjectType objectType _ -> Nothing lookupInputType (Full.TypeNonNull (Full.NonNullTypeList nonNull)) types = In.NonNullListType <$> lookupInputType nonNull types coerceVariableValues :: Coerce.VariableValue a => forall m . HashMap Full.Name (Type m) -> OperationDefinition -> HashMap.HashMap Full.Name a -> Either QueryError Type.Subs coerceVariableValues types operationDefinition variableValues = let OperationDefinition _ _ variableDefinitions _ _ = operationDefinition in maybe (Left CoercionError) Right $ foldr forEach (Just HashMap.empty) variableDefinitions where forEach variableDefinition coercedValues = do let Full.VariableDefinition variableName variableTypeName defaultValue = variableDefinition let defaultValue' = constValue <$> defaultValue variableType <- lookupInputType variableTypeName types Coerce.matchFieldValues coerceVariableValue' variableValues variableName variableType defaultValue' coercedValues coerceVariableValue' variableType value' = Coerce.coerceVariableValue variableType value' >>= Coerce.coerceInputLiteral variableType constValue :: Full.ConstValue -> Type.Value constValue (Full.ConstInt i) = Type.Int i constValue (Full.ConstFloat f) = Type.Float f constValue (Full.ConstString x) = Type.String x constValue (Full.ConstBoolean b) = Type.Boolean b constValue Full.ConstNull = Type.Null constValue (Full.ConstEnum e) = Type.Enum e constValue (Full.ConstList l) = Type.List $ constValue <$> l constValue (Full.ConstObject o) = Type.Object $ HashMap.fromList $ constObjectField <$> o where constObjectField (Full.ObjectField key value') = (key, constValue value') -- | Rewrites the original syntax tree into an intermediate representation used -- for query execution. document :: Coerce.VariableValue a => forall m . Schema m -> Maybe Full.Name -> HashMap Full.Name a -> Full.Document -> Either QueryError (Document m) document schema operationName subs ast = do let referencedTypes = collectReferencedTypes schema (operations, fragmentTable) <- defragment ast chosenOperation <- getOperation operationName operations coercedValues <- coerceVariableValues referencedTypes chosenOperation subs let replacement = Replacement { fragments = HashMap.empty , fragmentDefinitions = fragmentTable , variableValues = coercedValues , types = referencedTypes } case chosenOperation of OperationDefinition Full.Query _ _ _ _ -> pure $ Document referencedTypes (query schema) $ operation chosenOperation replacement OperationDefinition Full.Mutation _ _ _ _ | Just mutationType <- mutation schema -> pure $ Document referencedTypes mutationType $ operation chosenOperation replacement OperationDefinition Full.Subscription _ _ _ _ | Just subscriptionType <- subscription schema -> pure $ Document referencedTypes subscriptionType $ operation chosenOperation replacement _ -> Left UnsupportedRootOperation defragment :: Full.Document -> Either QueryError (NonEmpty OperationDefinition, FragmentDefinitions) defragment ast = let (operations, fragmentTable) = foldr defragment' ([], HashMap.empty) ast nonEmptyOperations = NonEmpty.nonEmpty operations emptyDocument = Left EmptyDocument in (, fragmentTable) <$> maybe emptyDocument Right nonEmptyOperations where defragment' definition (operations, fragments') | (Full.ExecutableDefinition executable) <- definition , (Full.DefinitionOperation operation') <- executable = (transform operation' : operations, fragments') | (Full.ExecutableDefinition executable) <- definition , (Full.DefinitionFragment fragment) <- executable , (Full.FragmentDefinition name _ _ _ _) <- fragment = (operations, HashMap.insert name fragment fragments') defragment' _ acc = acc transform = \case Full.OperationDefinition type' name variables directives' selections _ -> OperationDefinition type' name variables directives' selections Full.SelectionSet selectionSet _ -> OperationDefinition Full.Query Nothing mempty mempty selectionSet -- * Operation operation :: OperationDefinition -> Replacement m -> Operation m operation operationDefinition replacement = runIdentity $ evalStateT (collectFragments >> transform operationDefinition) replacement where transform (OperationDefinition Full.Query name _ _ sels) = Query name <$> appendSelection sels transform (OperationDefinition Full.Mutation name _ _ sels) = Mutation name <$> appendSelection sels transform (OperationDefinition Full.Subscription name _ _ sels) = Subscription name <$> appendSelection sels -- * Selection selection :: Full.Selection -> State (Replacement m) (Either (Seq (Selection m)) (Selection m)) selection (Full.Field alias name arguments' directives' selections) = maybe (Left mempty) (Right . SelectionField) <$> do fieldArguments <- foldM go HashMap.empty arguments' fieldSelections <- appendSelection selections fieldDirectives <- Definition.selection <$> directives directives' let field' = Field alias name fieldArguments fieldSelections pure $ field' <$ fieldDirectives where go arguments (Full.Argument name' value') = inputField arguments name' value' selection (Full.FragmentSpread name directives') = maybe (Left mempty) (Right . SelectionFragment) <$> do spreadDirectives <- Definition.selection <$> directives directives' fragments' <- gets fragments fragmentDefinitions' <- gets fragmentDefinitions case HashMap.lookup name fragments' of Just definition -> lift $ pure $ definition <$ spreadDirectives Nothing | Just definition <- HashMap.lookup name fragmentDefinitions' -> do fragDef <- fragmentDefinition definition case fragDef of Just fragment -> lift $ pure $ fragment <$ spreadDirectives _ -> lift $ pure Nothing | otherwise -> lift $ pure Nothing selection (Full.InlineFragment type' directives' selections) = do fragmentDirectives <- Definition.selection <$> directives directives' case fragmentDirectives of Nothing -> pure $ Left mempty _ -> do fragmentSelectionSet <- appendSelection selections case type' of Nothing -> pure $ Left fragmentSelectionSet Just typeName -> do types' <- gets types case lookupTypeCondition typeName types' of Just typeCondition -> pure $ selectionFragment typeCondition fragmentSelectionSet Nothing -> pure $ Left mempty where selectionFragment typeName = Right . SelectionFragment . Fragment typeName appendSelection :: Traversable t => t Full.Selection -> State (Replacement m) (Seq (Selection m)) appendSelection = foldM go mempty where go acc sel = append acc <$> selection sel append acc (Left list) = list >< acc append acc (Right one) = one <| acc directives :: [Full.Directive] -> State (Replacement m) [Definition.Directive] directives = traverse directive where directive (Full.Directive directiveName directiveArguments) = Definition.Directive directiveName . Type.Arguments <$> foldM go HashMap.empty directiveArguments go arguments (Full.Argument name value') = do substitutedValue <- value value' return $ HashMap.insert name substitutedValue arguments -- * Fragment replacement -- | Extract fragment definitions into a single 'HashMap'. collectFragments :: State (Replacement m) () collectFragments = do fragDefs <- gets fragmentDefinitions let nextValue = head $ HashMap.elems fragDefs unless (HashMap.null fragDefs) $ do _ <- fragmentDefinition nextValue collectFragments fragmentDefinition :: Full.FragmentDefinition -> State (Replacement m) (Maybe (Fragment m)) fragmentDefinition (Full.FragmentDefinition name type' _ selections _) = do modify deleteFragmentDefinition fragmentSelection <- appendSelection selections types' <- gets types case lookupTypeCondition type' types' of Just compositeType -> do let newValue = Fragment compositeType fragmentSelection modify $ insertFragment newValue lift $ pure $ Just newValue _ -> lift $ pure Nothing where deleteFragmentDefinition replacement@Replacement{..} = let newDefinitions = HashMap.delete name fragmentDefinitions in replacement{ fragmentDefinitions = newDefinitions } insertFragment newValue replacement@Replacement{..} = let newFragments = HashMap.insert name newValue fragments in replacement{ fragments = newFragments } value :: forall m. Full.Value -> State (Replacement m) Type.Value value (Full.Variable name) = gets (fromMaybe Type.Null . HashMap.lookup name . variableValues) value (Full.Int int) = pure $ Type.Int int value (Full.Float float) = pure $ Type.Float float value (Full.String string) = pure $ Type.String string value (Full.Boolean boolean) = pure $ Type.Boolean boolean value Full.Null = pure Type.Null value (Full.Enum enum) = pure $ Type.Enum enum value (Full.List list) = Type.List <$> traverse value list value (Full.Object object) = Type.Object . HashMap.fromList <$> traverse objectField object where objectField (Full.ObjectField name value') = (name,) <$> value value' input :: forall m. Full.Value -> State (Replacement m) (Maybe Input) input (Full.Variable name) = gets (fmap Variable . HashMap.lookup name . variableValues) input (Full.Int int) = pure $ pure $ Int int input (Full.Float float) = pure $ pure $ Float float input (Full.String string) = pure $ pure $ String string input (Full.Boolean boolean) = pure $ pure $ Boolean boolean input Full.Null = pure $ pure Null input (Full.Enum enum) = pure $ pure $ Enum enum input (Full.List list) = pure . List <$> traverse value list input (Full.Object object) = do objectFields <- foldM objectField HashMap.empty object pure $ pure $ Object objectFields where objectField resultMap (Full.ObjectField name value') = inputField resultMap name value' inputField :: forall m . HashMap Full.Name Input -> Full.Name -> Full.Value -> State (Replacement m) (HashMap Full.Name Input) inputField resultMap name value' = do objectFieldValue <- input value' case objectFieldValue of Just fieldValue -> pure $ HashMap.insert name fieldValue resultMap Nothing -> pure resultMap